Vet Med - Czech, 2019, 64(8):335-341 | DOI: 10.17221/6/2019-VETMED

A comparison of propofol and alfaxalone in a continuous rate infusion in dogs with mitral valve insufficiencyOriginal Paper

Igor Capik*,1, Isabela Polkovska2, Branislav Lukac1
1 University of Veterinary Medicine and Pharmacy in Kosice, Small Animals Clinic, Kosice, Slovakia
2 University of Life Sciences in Lublin, Department and Clinic of Animal Surgery, Lublin, Poland

The aim of this study was to compare alfaxalone and propofol in balanced anaesthesia using midazolam 0.5 mg/kg, xylazine 0.125 mg/kg, butorphanol 0.2 mg/kg intravenously as premedication and the ultrashort acting anaesthetics alfaxalone or propofol for inducing and maintaining in dogs with medically stabilised mitral valve regurgitation. Seven client-owned dogs with a second stage cardiac insufficiency were used in this study. All the dogs suffered from class II cardiac insufficiency according to the classification by the International Small Animal Cardiac Health Council (ISACH). All the dogs were treated with angiotensin converting enzyme inhibitors (enalapril) and diuretics (furosemide), which eliminated the clinical signs of mitral valve regurgitation in all the dogs included in the study. This was a prospective controlled clinical study, 12 months in duration, when the dogs included in the study underwent regular dental prophylaxis. The dogs were monitored electrocardiographically throughout the anaesthesia for the presence of arrhythmias, % oxygen saturation of haemoglobin (%SpO2) measured by pulse oximetry, heart rate, respiratory rate and body temperature. The dogs underwent two anaesthesia procedures with an interval of one year due to the prophylaxis of periodontitis, with the first anaesthesia maintained by propofol and second one by alfaxalone. The respiratory rate was mostly significantly higher in the individuals undergoing alfaxalone anaesthesia (P < 0.05), but neither the slower respiratory frequency in the propofol anaesthesia had any negative impact on the % oxygen saturation of the haemoglobin (%SpO2). The heart frequency was significantly higher in the alfaxalone group (P < 0.005). The arterial blood pressures were comparable, but, on the contrary, the two dogs from propofol group had significantly higher blood pressure. The cardiovascular values in both types of anaesthesia had a tendency to progressively decrease within the physiological range. The level of the analgesia was significantly higher in the case of the propofol anaesthesia (P < 0.01) and the recovery period was also significantly shorter (P < 0.005). It can be concluded that the investigated ultra short acting anaesthetics used in balanced anaesthesia containing subanaesthetic doses of xylazine can be used over one hour of surgical procedures in dogs stabilised for mitral valve regurgitation without a significantly increased risk from the anaesthesia.

Keywords: ultrashort anaesthetics; intravenous anaesthesia; cardiac disease; small animal

Published: August 31, 2019  Show citation

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Capik I, Polkovska I, Lukac B. A comparison of propofol and alfaxalone in a continuous rate infusion in dogs with mitral valve insufficiency. Vet Med - Czech. 2019;64(8):335-341. doi: 10.17221/6/2019-VETMED.
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    References

    1. Ambros B, Duke-Novakovski T, Pasloske KS (2008): Comparison of the anaesthetic efficacy and cardiopulmonary effects of continuous rate infusions of alfaxalone-2hydroxypropyl-β-cyclodextrin and propofol in dogs. American Journal of Veterinary Research 69, 1391-1398. Go to original source... Go to PubMed...
    2. Buchanan J (1999): Prevalence of cardiovascular disorders. In: Fox PR, Sisson D, Moise N (eds): Textbook of Canine and Feline Cardiology. 2nd edn. Saunders, Philadelphia. 457-470 p.
    3. Cook DJ, Housmans PR (1994): Mechanism of the negative inotropic effect of propofol in isolated ferret ventricular myocardium. Anesthesiology 80, 859-871. Go to original source... Go to PubMed...
    4. Ferre PJ, Pasloske K, Whittem T, Ranasinghe MG, Li Q, Lefebvre HP (2006): Plasma pharmacokinetics of alfaxalone in dogs after an intravenous bolus of Alfaxan-CD. Veterinary Anaesthesia and Analgesia 33, 229-236. Go to original source... Go to PubMed...
    5. Gear RW, Miaskowski C, Gordon NC, Paul SM, Heller PH, Levine JD (1999): The kappa opioid nalbuphine produces gender- and dose-dependent analgesia and antianalgesia in patients with postoperative pain. Pain 83, 339-345. Go to original source... Go to PubMed...
    6. Gelisen HP, Epema AH, Henning RH, Krijnen HJ, Hennis PJ, den Hertog A (1996): Inotropic effects of propofol, thiopental, midazolam, etomidate, and ketamine on isolated human atrial muscle. Anesthesiology 84, 397-403. Go to original source... Go to PubMed...
    7. Hall LW, Clarke KW, Trim CM (2001): Veterinary Anaesthesia. 10th edn. W.B. Saunders, London. 561 pp. Go to original source...
    8. Hagstrom J, Kvart C, Pedersen HD (2005): Acquired valvular heart disease. In: Ettinger SJ, Feldman EC (eds): Textbook of Veterinary Internal Medicine. 6th edn. Elsevier Saunders, St. Louis. 1022-1039 p.
    9. Chabot-Dore AJ, Schuster DJ, Stone LS, Wilcox GL (2015): Analgesic synergy between opioid and α2-adrenoceptors. British Journal of Pharmacology 172, 388-402. Go to original source... Go to PubMed...
    10. Kay NH, Uppington J, Sear JW, Douglas EJ, Cockshot ID (1985): Pharmacokinetics of propofol (Diprivan) as an induction agent. Postgraduate Medical Journal 61, 55-57. Go to original source... Go to PubMed...
    11. Kastner SBR (2007): Intravenous anaesthetics. In: Seymour C, Duke-Novakovski T (eds): BSAVA Manual of Canine and Feline Anaesthesia and Analgesia. 2nd edn. British Small Animal Veterinary Association, Gloucester. 133-149 p.
    12. Kolahian S (2014): Efficacy of different antiemetics with different mechanism of action on xylazine induced emesis in cats. Iranian Journal of Veterinary Surgery 9, 9-16.
    13. Maddern K, Adams VJ, Hill NA, Leece EA (2010): Alfaxalone induction dose following administration of medetomidine and butorphanol in the dog. Veterinary Anaesthesia and Analgesia 37, 7-13. Go to original source... Go to PubMed...
    14. Mouren S, Baron JF, Albo C, Szekely B, Arthaud M, Viars P (1994): Effects of propofol and thiopental on coronary blood flow and myocardial performance in an isolated rabbit heart. Anesthesiology 80, 634-641. Go to original source... Go to PubMed...
    15. Muir W, Lerche P, Wiese A, Nelson L, Pasloske K, Whittem T (2008): Cardiorespiratory and anesthetic effects of clinical and supraclinical doses of alfaxalone in dogs. Veterinary Anaesthesia and Analgesia 35, 451-462. Go to original source... Go to PubMed...
    16. Park WK, Lynch C (1992): Propofol and thiopental depression of myocardial contractility: A comparative study of mechanical and electrophysiologic effects in isolated guinea pig ventricular muscle. Anesthesia and Analgesia 74, 395-405. Go to original source... Go to PubMed...
    17. Sisson D, Kvart CP (1999): Acquired valvular heart disease in dogs and cats. In: Fox PR, Sisson D, Moise N (eds): Textbook of Canine and Feline Cardiology. 2nd edn. W.B. Saunders, London. 536-555 p.
    18. Steinbacher R, Dorfelt R (2012): Anaesthesia in dogs and cats with cardiac disease (in German). Wiener Tierarztliche Monatsschrift 99, 27-43.

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